Targeted brain activation using an MR-compatible wrist torque measurement device and isometric motor tasks during functional magnetic resonance imaging

Martijn P. Vlaar; Winfred Mugge; Paul F. C. Groot; Sarvi Sharifi; Lo J. Bour; Frans C. T. van der Helm; Anne-Fleur van Rootselaar; Alfred C. Schouten

doi:https://doi.org/10.1016/j.mri.2016.02.002

Targeted brain activation using an MR-compatible wrist torque measurement device and isometric motor tasks during functional magnetic resonance imaging

Martijn P. Vlaar, Winfred Mugge, Paul F. C. Groot, Sarvi Sharifi, Lo J. Bour, Frans C. T. van der Helm, Anne-Fleur van Rootselaar, Alfred C. Schouten

Research output: Contribution to journal › Article › Academic › peer-review

6 Citations (Scopus)

Abstract

Dedicated pairs of isometric wrist flexion tasks, with and without visual feedback of the exerted torque, were designed to target activation of the CBL and BG in healthy subjects during functional magnetic resonance imaging (fMRI). Selective activation of the cerebellum (CBL) and basal ganglia (BG), often implicated in movement disorders such as tremor and dystonia, may help identify pathological changes and expedite diagnosis. A prototyped MR-compatible wrist torque measurement device, free of magnetic and conductive materials, allowed safe execution of tasks during fMRI without causing artifacts. A significant increase of activity in CBL and BG was found in healthy volunteers during a constant torque task with visual feedback compared to a constant torque task without visual feedback. This study shows that specific pairs of motor tasks using MR-compatible equipment at the wrist allow for targeted activation of CBL and BG, paving a new way for research into the pathophysiology of movement disorders

Original language	English
Pages (from-to)	795-802
Number of pages	8
Journal	Magnetic Resonance Imaging
Volume	34
Issue number	6
DOIs	https://doi.org/10.1016/j.mri.2016.02.002
Publication status	Published - 1 Jul 2016

Keywords

Basal ganglia
Cerebellum
FMRI
Functional magnetic resonance imaging
Isometric motor tasks
Optical force sensor

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Vlaar, M. P., Mugge, W., Groot, P. F. C., Sharifi, S., Bour, L. J., van der Helm, F. C. T., van Rootselaar, A.-F., & Schouten, A. C. (2016). Targeted brain activation using an MR-compatible wrist torque measurement device and isometric motor tasks during functional magnetic resonance imaging. Magnetic Resonance Imaging, 34(6), 795-802. https://doi.org/10.1016/j.mri.2016.02.002

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title = "Targeted brain activation using an MR-compatible wrist torque measurement device and isometric motor tasks during functional magnetic resonance imaging",

abstract = "Dedicated pairs of isometric wrist flexion tasks, with and without visual feedback of the exerted torque, were designed to target activation of the CBL and BG in healthy subjects during functional magnetic resonance imaging (fMRI). Selective activation of the cerebellum (CBL) and basal ganglia (BG), often implicated in movement disorders such as tremor and dystonia, may help identify pathological changes and expedite diagnosis. A prototyped MR-compatible wrist torque measurement device, free of magnetic and conductive materials, allowed safe execution of tasks during fMRI without causing artifacts. A significant increase of activity in CBL and BG was found in healthy volunteers during a constant torque task with visual feedback compared to a constant torque task without visual feedback. This study shows that specific pairs of motor tasks using MR-compatible equipment at the wrist allow for targeted activation of CBL and BG, paving a new way for research into the pathophysiology of movement disorders",

keywords = "Basal ganglia, Cerebellum, FMRI, Functional magnetic resonance imaging, Isometric motor tasks, Optical force sensor",

author = "Vlaar, {Martijn P.} and Winfred Mugge and Groot, {Paul F. C.} and Sarvi Sharifi and Bour, {Lo J.} and {van der Helm}, {Frans C. T.} and {van Rootselaar}, Anne-Fleur and Schouten, {Alfred C.}",

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AU - Vlaar, Martijn P.

AU - Mugge, Winfred

AU - Groot, Paul F. C.

AU - Sharifi, Sarvi

AU - Bour, Lo J.

AU - van der Helm, Frans C. T.

AU - van Rootselaar, Anne-Fleur

AU - Schouten, Alfred C.

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N2 - Dedicated pairs of isometric wrist flexion tasks, with and without visual feedback of the exerted torque, were designed to target activation of the CBL and BG in healthy subjects during functional magnetic resonance imaging (fMRI). Selective activation of the cerebellum (CBL) and basal ganglia (BG), often implicated in movement disorders such as tremor and dystonia, may help identify pathological changes and expedite diagnosis. A prototyped MR-compatible wrist torque measurement device, free of magnetic and conductive materials, allowed safe execution of tasks during fMRI without causing artifacts. A significant increase of activity in CBL and BG was found in healthy volunteers during a constant torque task with visual feedback compared to a constant torque task without visual feedback. This study shows that specific pairs of motor tasks using MR-compatible equipment at the wrist allow for targeted activation of CBL and BG, paving a new way for research into the pathophysiology of movement disorders

AB - Dedicated pairs of isometric wrist flexion tasks, with and without visual feedback of the exerted torque, were designed to target activation of the CBL and BG in healthy subjects during functional magnetic resonance imaging (fMRI). Selective activation of the cerebellum (CBL) and basal ganglia (BG), often implicated in movement disorders such as tremor and dystonia, may help identify pathological changes and expedite diagnosis. A prototyped MR-compatible wrist torque measurement device, free of magnetic and conductive materials, allowed safe execution of tasks during fMRI without causing artifacts. A significant increase of activity in CBL and BG was found in healthy volunteers during a constant torque task with visual feedback compared to a constant torque task without visual feedback. This study shows that specific pairs of motor tasks using MR-compatible equipment at the wrist allow for targeted activation of CBL and BG, paving a new way for research into the pathophysiology of movement disorders

KW - Basal ganglia

KW - Cerebellum

KW - FMRI

KW - Functional magnetic resonance imaging

KW - Isometric motor tasks

KW - Optical force sensor

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Targeted brain activation using an MR-compatible wrist torque measurement device and isometric motor tasks during functional magnetic resonance imaging

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Keywords

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